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《Research on UltraLowFrequency Nonlinear Vibration Isolation System》
LU Chun-hong;BAI Hong-bai;YANG Jian-chun;LI Zhi-zun
   2010, 30 (4): 10-12.   DOI: 10.3969/j.issn.1006-1355.2010.04.003
Abstract2680)      PDF(pc) (967KB)(1882)       Save
Based on the analysis of vibration isolation mechanism of parallel combination of positive and negative stiffness, a new type of ultralowfrequency vertical vibration isolation system is developed in this paper. In this system, the parallel connection of springs with, respectively, positive stiffness and negative stiffness is applied so that it possesses high supporting stiffness as well as ultralow kinematic stiffness. And the stiffness of the system is also nonlinear. This method has solved the problem of ultralow frequency vibration isolation in the traditional passive vibration isolator system. Through the analysis of mechanical characteristic of this system, expression of the stiffness of the isolator and zero stiffness condition of the system at the equilibrium position are deduced. This method offers a theoretical guidance for the design of new type of nonlinear ultralowfrequency vibration isolators.
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《Simulation of Nonlinear Vibration System Based on Simulink》
LU Chun-hong;BAI Hong-bai;HAN Feng-qi;MENG Qiu-hong
   2010, 30 (2): 43-44.   DOI: 10.3969/j.issn.1006-1355.2010.02.043
Abstract3339)      PDF(pc) (637KB)(2275)       Save
Based on Simulink software, the simulation model of a nonlinear vibration system with bilinear restoring force is established and analyzed. The result shows that Simulink software can simplify computer processing and raise the reliability of computation. The displacement, speed and acceleration responses in the time domain can be gained more easily.
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